My question is related to weak signature vulnerability testing where a hypothetical attacker does not know the values of the nonce or private key itself, but can determine that the nonce 'k1' is increased by private key 'd' to create k2, such that:  k2 = k1+d.  

I have searched the stack exchanges and various articles and research papers and have not found a workable solution to this problem.  My own linear algebra not as strong as I would like it (its been a number of years), and my attempts have not been successful.  I have used the k2 = k1+1 equations but they do not specifically produce the necessary solution of k2-k1 = d.  Other solutions for solving for k did not work, either.  

Is there a way to find the difference of k2-k1 = d, where k1, k2, and d are unknown, where k2 = k1+d, but all other values (r, s, z) are known?  

(I have provided the values of d, k1, and k2 for verification of possible solutions, but for the purposes of the question, assume an attacker does not know the values but can spot a relationship).

Let:

N:       Finite field of the secp256k1

d:       Private key

B(x,y):  Public key coordinates

k:       Private key of ECDSA nonce

R(x,y):  Public key coordinates of nonce

r:       R.x integer

s:       signature integer

z:       Hash value of message

N= 0xfffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141

B.x= 0x7697a1f8d952c373285bd441b1716344a61748b48279be15b03538d80e60f901

B.y= 
0x431aed8857c99064b316a0c9fb6e7cba3eeade88f44d2c31dee4fa8965740f54

d= 
0x8b5069be43c35cbc6530d473a9f102dc57f8f5771982eba3988a7588c6e284a7

k1= 0x248548dcbf7ff4b25134ee12f78fadaa8283025734b905640b8c400580b869e

s1= 0xec585a4b0317e38b75008930607a32224b3d11a8a373ed15da32723b1418f852

z1= 0x12dd3658e48a15016dc1f5af7725ad3a5e7b2d6a52112dbd4a0d6df8772a141a

R1x= 0xb2dcf2acc6fdd003e65e8d9d77ee4d84a9c0cccbac8eb43bdeeecb69a35bab4b

R1y= 0x4a8774fd7ac69caf2d92154324c2280b5f29652b7f458baa28545f1b38d969b8

############################

k2= 0x8d98be4c0fbb5c078a442354d969fdb70021259c8cce7bf9d94339891eee0b

s2= 0x2df1c9e8b3984088ec521c92e9f001b836841e8a14cda6977072d5b23bed171e

z2= 0xdae540b9f50337b2dab2f226a687084e8a1758dbc73505b7ff288b01cc4dae3f

R2x= 0x37df00ccef04bfcf0f2b0da82a685125ddd67b9f66320a9619e6e4df7bd57439

R2y= 0x5ff78c4ef0caf4eff68f938ee475e2e99a7b9be31642eb0e5cb68b30a843b46b

Basic signature equations:

d= (k * s - z) * r^-1 mod N

k= (d * r + z) * s^-1 mod N - or- (d * a + b) mod N

s= (d * r + z) * k^-1 mod N

r= (k * s - z) * d^-1 mod N

z= (k * s) - (d * r) mod N

a= r * s^-1 mod N

b= z * s^-1 mod N

Is there a way to solve this to obtain the value k2-k1=d (k1+d-k1=d) given the equations above, or to solve either k1 or k2,  or would the k generation scheme be relatively secure from attack?